Speed bumps cut average parking-lot speed by 22 to 40 percent per the ITE Traffic Calming Manual 2018 meta-analysis. Speed humps on residential streets: 20 to 30 percent. Speed cushions: 15 to 25 percent. Speed tables: 10 to 20 percent. The FHWA Traffic Calming ePrimer backs the same numbers. Combined-device strategies — bumps plus signage plus striping — reach 40 to 60 percent reduction.
Below: the research on speed-bump effectiveness, how the bump-hump-cushion-table family compares, and why combined-device strategies outperform single-device installs.
Do Speed Bumps Actually Slow Drivers?
Yes. The Institute of Transportation Engineers 2018 Traffic Calming Manual meta-analysis aggregates effectiveness data across hundreds of US installations. Key findings:
- Speed bumps in parking lots: 22 to 40 percent average speed reduction across the corridor
- Speed humps on residential streets: 20 to 30 percent average speed reduction
- Speed cushions on fire-access streets: 15 to 25 percent average speed reduction (lower because emergency vehicles still pass at speed)
- Speed tables on collector streets: 10 to 20 percent average speed reduction
The reduction is sustained over time. Drivers do not "get used to" bumps in ways that defeat the calming effect. Per FHWA ePrimer follow-up studies, speed reduction at 12 months matches speed reduction at install date within 5 percent.
What Determines How Effective a Speed Bump Is?
Three factors set effectiveness:
- Dimensions. ITE-spec 3 to 4 inches tall, 1 to 3 feet long, parabolic profile. Outside this spec, effectiveness drops.
- Spacing. 100 to 200 feet apart in parking lots, 150 to 300 feet on residential streets. Bumps spaced too far apart let drivers reach pre-bump speed; bumps spaced too close feel punitive and produce avoidance.
- Signage and visibility. Bumps without chevron paint and W17-1 advance warning signs see compliance drop 15 to 25 percent. Drivers who do not see the bump in time do not slow.
For deeper detail on each factor, see speed bump dimensions, speed bump spacing, and speed bump painting marking (which covers chevron and signage).
How Do Bumps Compare to Other Traffic-Calming Devices?
| Device | Length | Average Speed Reduction | Best Site Type |
|---|---|---|---|
| Speed bump | 1 to 3 feet | 22 to 40 percent | Parking lots |
| Speed hump | 12 to 14 feet | 20 to 30 percent | Residential streets |
| Speed cushion | varies | 15 to 25 percent | Fire-access routes |
| Speed table | 22 feet | 10 to 20 percent | Collector streets, bus routes |
| Stop sign | n/a | 10 to 25 percent | Drive-aisle intersections |
| Pavement striping | n/a | 5 to 12 percent | Visual reinforcement |
| Bollards | n/a | minimal direct effect | Lane narrowing |
| Chicane | varies | 10 to 25 percent | Long straight aisles |
| Raised crosswalk | 22 feet | 15 to 30 percent | Pedestrian crossings |
For the bump-vs-hump comparison in detail, see speed bump vs speed hump.
Do Combined-Device Strategies Outperform Single Devices?
Yes. Combined-device strategies typically deliver 40 to 60 percent average speed reduction versus 22 to 40 percent for bumps alone.
Per the FHWA Traffic Calming ePrimer and ITE Traffic Calming Manual chapter 5, common combinations:
- Bumps + striping + stop signs: 35 to 55 percent reduction
- Bumps + bollards at entries + stop signs: 30 to 50 percent reduction
- Raised crosswalks + striping + bollards: 35 to 60 percent reduction
- Bumps + cushions on mixed corridors: 25 to 45 percent reduction (cushions on fire-access, bumps elsewhere)
For deeper combined-device strategy detail, see how to slow down parking lot traffic.
What Does Effectiveness Look Like in the Real World?
On a 14,000-square-foot Salem retail center we restriped in March 2026, the property combined four speed bumps at ITE-spec 100 to 150-foot spacing with stop signs at the two drive-aisle intersections, supplemental striping including "SLOW" stencils, and bollards at the main entry. Speed observations:
| Metric | Pre-Install | Post-Install |
|---|---|---|
| 75th-percentile speed | 22 mph | 9 mph |
| Average speed | 18 mph | 8 mph |
| Maximum observed speed | 35 mph | 17 mph |
How Long Does Effectiveness Last?
Per FHWA ePrimer and ITE follow-up data, properly maintained bumps deliver consistent effectiveness over their full lifespan:
- Year 1. Full effectiveness baseline.
- Year 2 to 5 (rubber). 95 to 100 percent of baseline if maintained per the speed bump maintenance schedule.
- Year 2 to 10 (asphalt). 90 to 100 percent if chevron paint is repainted on cycle.
- Year 2 to 25 (concrete). 85 to 95 percent if profile is preserved.
Effectiveness drops when chevron paint fades (drivers see the bump too late), when reflectors are missing (nighttime compliance suffers), or when profile degrades from edge crack-out.
What Reduces Speed Bump Effectiveness?
Five factors that drop effectiveness:
- Sub-3-inch height. Bumps too short produce vertical acceleration too low to force compliance.
- Spacing wider than 200 feet. Drivers reach pre-bump speed between devices.
- Faded chevron paint. Drivers see the bump too late to slow comfortably.
- Missing advance warning signs. Approach drivers cannot anticipate the bump.
- Avoidance route available. When a parallel drive aisle has no bumps, drivers route around.
ITE Traffic Calming Manual chapter 3 specifically references "system-wide" calming as the path to sustained effectiveness. Calming a single corridor while leaving alternatives untreated produces avoidance routing.
Are Speed Bumps Effective at Reducing Crashes?
Yes, modestly. ITE meta-analysis indicates speed bumps reduce crash rates by 10 to 20 percent in residential and parking-lot contexts. The reduction is smaller than the speed reduction because crashes correlate with multiple factors beyond speed (driver attention, weather, road geometry).
Pedestrian-vehicle crashes drop more than vehicle-vehicle crashes — pedestrian fatality risk drops sharply when vehicle speeds drop from 25 mph to under 15 mph per FHWA pedestrian-safety references.
For Oregon paving-and-marking context, see our commercial striping Portland page. For Portland Metro multi-site effectiveness comparisons, see Speed Bumps in Portland Metro.
Get an Effectiveness-Verified Quote
Speed bump effectiveness depends on dimensions, spacing, signage, and combined-device strategy at your specific site. Get a custom quote and Cojo's commercial estimator will conduct a 75th-percentile speed observation pre-install, scope ITE-spec dimensions and spacing, and verify effectiveness post-install with a follow-up speed observation.